Green building standard assessment at a higher education institution (original) (raw)
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Comparative Study on Green Building Implementation on Educational Building Design
Proceedings of the 3rd International Conference on Dwelling Form (IDWELL 2020), 2020
As a developing country, the development of human resources is one of the country's priority programs in enhancing national competitiveness of the current economic globalization era. The necessity of university campus development is required in ensuring the fulfilment of facilities and infrastructure of the human resource development. Since 2010, the infrastructure development at ITB Campus has been carried out using green building policies. However, the implementation has not indicated a significant impact. It is apprehensive that the ineffective application of green concept in the construction of new buildings will have a negative impact on the environment, especially the carbon emission effect emitted throughout the building's life cycle. It is important to ensure that the implementation of green building concept of new building construction, starts from the planning and design phases, contributes to carbon emission reduction. Therefore, a green building assessment is carried out for all new building designs. This assessment provides an opportunity to select the most optimum green design alternative to reduce the impact of carbon emissions up to 30% from existing designs. The building design assessment employs the open studio application and the EDGE platform from the World Bank. This paper will analyze the result of the green assessment of three new building designs (Labtek XV, Labtek XVI, Labtek XVII). The analysis will be managed comparatively, to obtain significant factors and to determine optimum alternatives.
Green Building Assessment of Cilacap State Polytechnic: Building A
Jurnal Presipitasi : Media Komunikasi dan Pengembangan Teknik Lingkungan
Buildings to achieve sustainable development must meet environmental criteria. This environmentally friendly building design is often referred to as a green building. The Green Building concept aims to reduce the negative impact on the environment from the construction and utilization of buildings. This study will discuss the criteria and requirements that must be met by company buildings to be categorized as Green Buildings according to the Green Building Council Indonesia (GBCI) and obtain a Greenship certificate, as well as any components at the construction and maintenance stage that affect the fulfillment of these requirements. This study uses a quantitative method by the green ship standard version 1.1. The greens criteria assessment in Building A resulted in 51 points. The results of this assessment explain that Building A is included in the silver category. This result explains that 44% of Building A's facilities have met the green building criteria. Upgrading from silve...
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Construction of buildings without considering environmental conditions such as the accuracy of land use, the use of energy (electricity), water and the use of building materials impact on the quality of life around it. This study aims to determine the criteria of green building based on the Greenship-GBCI standard of building code. The object of research on the building Faculty of Engineering and Faculty of Fisheries by way of direct observation and verification interviews. Based on data collected and calculations on 41 Greenship criteria from six categories: Appropriate Site Development (ASD), Energy Efficiency and Conservation (EEC), Water Conservation (WAC), Material Resource and Cycle (MRC), Indoor Health and Comfort (IHC) and Building Environment Management (BEM), Faculty of Engineering building and Faculty of Fisheries building total points of 29 points from 117 maximum points consisting of ASD; EEC; WAC; MRC; IHC and BEM respectively are 9; 1; 0; 6; 10; and 5 points. The high...
Sustainable assessment of academic buildings at Universiti Teknologi Petronas campus
IOP conference series, 2019
The objectives of this study are; to investigate the most suitable method for Sustainable Building Assessment, to gather the data of specific indicator and validate each criteria according to sustainable building assessment benchmark. However, variables like energy efficiency, indoor environmental quality, sustainable site planning and management, available materials and resources, water efficiency and innovation were integrated and separately studied to develop a sustainable academic building environment in the campus of university Petronas, Malaysia. Sustainable assessment tools, GBI tool and in-depth literature review were used. The result shows that GBI sustainable building assessment of Universiti Teknologi Petronas scores 43 out of 64 which is 67% of the total score hence the rating would be Silver. This result proves that some improvements need to be made on some parameters, which did not pass the requirements. In a nutshell, Universiti Teknologi Petronas has high potential to meet GBI certified level that will help to increase the ranking status of the university to higher level. This also would be a great opportunity for the university to set a benchmark as a role model of green university in Malaysia. However, this study recommends that UTP management develops corrective policies to improve the building overall performance and standard.
A Comparison of the Green Building’s Criteria
E3S Web of Conferences, 2014
Designers and clients alike are now emphasising on how to make their buildings green. Currently a lot of green councils worldwide are dealing with innovative ways to implement energy efficient new buildings. They have adopted various criteria and rating systems in an endeavour to classify buildings that contribute to environment sustainability, efficiency and users health. The aim of the paper is to present an overview of the criteria adopted by selected green building councils. This paper discusses five of the rating systems available in terms of their similarities and differences and proposes a new framework based on the project life cycle for the development of the green building criteria. Criteria during the construction phase of the building is certainly lacking such as pollution control in terms of CO 2 emission, dust, and other pollutants. 3 0101 4 4 0101 This is an Open Access article distributed under the terms of the Creative Commons Attribution License 4.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
International Journal of Sciences: Basic and Applied Research, 2020
The rapid growing of development in Indonesia has increased the energy needs and made current Green Building issue become very important. To support the development, green building is regulated in the policies and programs to improve energy efficiency, water, and building materials as well as increasing the use of low carbon technology. This study aims to carry out the design recognition stage by identifying and ranking the 5 (five) Islamic Development Bank (IsDB) Building at Universitas Jember based on the criteria of using a greenship assessment tool for GBCI's new building version 1.2. The results show that the Islamic Development Bank (IsDB) Building at Universitas Jember for GBCI access data meet 4 (four) building eligibility criteria but does not meet 3 (three) other eligibility criteria. The value/points of the Auditorium Building is 28 (two eight) points (36,36%/Bronze), Biotechnology Engineering Building is 30 (thirty) points (38,96%/Bronze), Plant and Natural Medicine ...
Review on the Literature Available on Green Buildings
From late 20 th century, the development in construction field has seen asubstantial change in itself. Since the demand of housing is ever increasing with increase in population, this need has to be coped up with all the resources available. However, the energy sources available to the mankind are limited and depleting rapidly. This in term will affect the situation enormously since the demand cannot be copied up with available resources. And this will result in depletion of resources at a great extent creating major problems. To tackle this situation, various options are available. Green building construction is one of the effective option and can be used instead of normal construction since it is more energy efficient. In general the cost of construction of green building is high as compared to normal but the overall cost of the building including maintenance is comparatively less. This research study focusses various data available for study about green building and various trends available about the green building and also the comparison between sustainable building and conventional building.
Factors and Impact of Green Building Rating Program
International Journal for Modern Trends in Science and Technology, 2019
A green building rating system is a tool that evaluates the performance of a building and its impact on environment .It comprises a predefined set of criteria relating to the design, construction, and operations of green building. The purpose of this research is to expand knowledge about the usefulness of green building rating. This green building rating program originally began as an assessment of LEED (leadership in energy and efficient design).This research revealed that while there is growing environmental concern among specialists in the energy design .In this paper will study some journals about the green building from different areas. Also will find out the scope of green building in future.
INTERIOR ENVIRONMENT ASSESSMENT OF GREEN BUILDINGS – AN EXPLORATORY STUDY
Green building is one which uses less water, optimizes energy efficiency, conserves natural resources generate less waste and provides healthier spaces for occupants as compared to conventional buildings (U.S. Environmental Protection Agency 2008).The present study was designed with an effort to rediscover the Indian ethos by studying the green building rating system of India i.e. GRIHA. The present study was conducted in Haryana state. Secondary data regarding the number and ratings of green buildings were collected and compiled. Four green buildings were selected purposively from the secondary data collected. A sample of 100 occupants of the four selected green buildings was drawn randomly to assess occupant's satisfaction level regarding IEQ of building.Study found that green buildings are better than that of conventional buildings on all the parameters except in case of humidity. The satisfaction level of the respondents regarding the IEQ aspects i.e. air contaminants, temperature, humidity, noise and light of green buildings were found to be highly satisfactory.
Jurnal Teknik Sipil dan Perencanaan
The building sector is one of the world's largest energy consumers. This problem is further exacerbated by our dependence on non-renewable energy sources. More than 90% of the world's energy comes from fossil energy including oil, natural gas and coal whose availability in nature continues to decrease because they cannot be renewed. Green design is a reaction to the global environmental crisis. Green design which also leads to eco design, or design for environment is the art of designing physical objects and the surrounding environment to balance sustainable principles with economic, social, and ecological aspects. As a construction actor, you are required to be able to produce a building design that does not require too much energy consumption and also of course considers the comfort of the occupants in it. In an effort to develop the campus, Universitas Gadjah Mada seeks to make the UGM campus a Green Campus. One of the buildings at UGM and the first building at UGM to be certified as a green building by the Green Building Council Indonesia (GBCI), namely Building B, Faculty of Biology UGM with 43% energy savings points, 30% water and 65% efforts to utilize local materials. From the Energy sector, this building applies a small percentage of window/glass openings, uses reflective paint so as to minimize heat that will be transmitted into the building, external shading devices (shading), applies insulation on the roof, a variable refrigerant type HVAC system (VRF).) with a high COP so that it can save more energy and use artificial lighting / energy-saving lamps. From the water sector, using a toilet fixture with a low flow so that it can save water. Meanwhile, the use of materials includes the use of clay tiles, hebel walls and other materials that are local products.